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Performance and Emissions of Si Engine with Octane Boosters

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Performance and Emissions of Si Engine with Octane Boosters MATEC Web of Conferences 249, 03008 (2018) https://doi.org/10.1051/matecconf/201824 903008 ICMMM 2018 Performance and emissions of si engine with octane boosters Sai Vijay Venkatesh1 and R Udayakumar1 1 Department of Mechanical Engineering, BITS Pilani Dubai Campus, Dubai International Academic City, Dubai 345055, UAE Abstract. In today’s world we see that the demand for gasoline and cars keep increasing and one problem which is significantly seen is that we either opt for a fuel which provides higher performance or for a fuel which provides lesser emissions. In this study we aim to provide higher performance and lower emissions by combining two chemicals or octane boosters, namely ethanol and toluene with gasoline and find out its performance and emission characteristics when compared with traditional gasoline and ethanol-gasoline blend. In this study we have made four blends which are PP, E10, E10T5 and E20T5 which are tested against two performance parameters which are Specific Fuel Consumption, Brake Thermal Efficiency with respect to brake power and emissions parameter which are Carbon Dioxide, Carbon Monoxide, Oxides of Nitrogen and Hydrocarbon with respect to brake power as well. In each of these performance and emissions parameters, the blends are compared and we find that E20T5 has the highest performance and E10T5 has the lowest emission. 1. Introduction Ethanol is a clear colourless liquid having a chemical Since the inception of automobiles, spark ignited engines formula of C H OH. Ethanol is renewable energy source have been a boom in automotive industry and have been 2 5 and it has good anti-knock characteristics when compared capable of converting chemical energy into useful to gasoline. It is preferred due to its lower evaporative mechanical energy. It is one of the most widely used form losses since it makes it easier to transport and store it. of engine in the world. The main issue arising from the spark ignited engine being the exhaust emissions which Properties of Ethanol: constitutes in the rise of global warming. Another point Heating Value(MJ/kg): 26.9 being that, to provide an increase in performance of the Density(kg/m3): 785 engine without modifying its parts, is to use octane Octane Number: 106-110 boosters. Octane boosters are used for the purpose of Enthalpy of Vaporization(kJ/mol): 40.65 increasing the octane rating of the fuel. These fluids prevent knocking by using anti-knock additives. 1.3 Gasoline 1.1 Toluene Gasoline is a transparent, petroleum-derived liquid that is used as a fuel in spark-ignited internal combustion engines. Toluene is a clear and water insoluble liquid with the smell of paint thinners. It is a mono-substituted benzene Properties of Gasoline: derivative having a chemical formula of C7H8. Heating Value(MJ/kg): 44 Density(kg/m3): 765 Properties of Toluene: Octane Number: 95-98 Heating Value(MJ/kg): 40.528 Enthalpy of Vaporization(kJ/mol): 33.97 Density(kg/m3): 867 Octane Number: 112 Enthalpy of Vaporization(kJ/mol): 38.1 2. Literature Review 1.2 Ethanol The reasons for choosing toluene over the traditional octane boosters is because it shows substantial increase in brake power, brake thermal efficiency, brake specific fuel © The Authors, published by EDP Sciences. This is an open access article distributed under the terms of the Creative Commons Attribution License 4.0 (http://creativecommons.org/licenses/by/4.0/). MATEC Web of Conferences 249, 03008 (2018) https://doi.org/10.1051/matecconf/201824 903008 ICMMM 2018 consumption and produced the highest level of air-fuel found that E20 had reduced CO emission by 65% and HC ratio according to the authors in [1] and had also emission by 38% while doubling in NOX emissions. It was mentioned that toluene has a sensitivity rating of 12. found that combustion duration increases while using E20 Authors of reference [2] chose toluene due to its low and it had also increased the performance of the engine sensitivity rating which makes it an excellent choice for marginally. Researchers in [10] have stated that particulate heavily loaded engines. Alcohols usually have a sensitivity emissions from vehicles are harmful due to the release of rating of 20-30. From [2], we can understand that toluene ultrafine particles. It was also said that the variability in is denser than gasoline and delivers more energy per unit these particles increases with the change in the volume. Henceforth, burning of toluene prompts more composition of the blends. When toluene was added to energy being released and more power being created. This gasoline, it confirmed the hypothesis and increased is as opposed to oxygenated octane boosters like ethanol particle number concentration. This was also observed or Methyl Tertiary Butyl Ether (MTBE), which contain with the addition of ethanol in gasoline. less energy per unit volume in comparison with gasoline. As the authors stated in [3], ethanol is a renewable energy source since it can be produced from corn, sugarcane, 3. Methodology barley, and from many other materials. Since ethanol Four samples were prepared to be tested. These samples contains an oxygen atom, it is considered as a partially were 100% Petrol, 10% Ethanol blended with 90% petrol, oxidized hydrocarbon. Hence, it has a lower heating value 10% Ethanol and 5% Toluene blended with 85% petrol and than petrol and the density of ethanol is observed to be 20% Ethanol and 5% Toluene blended with 75% petrol. slightly higher than petrol. Ethanol does produce higher These four samples were labeled as Pure Petrol (PP), E10, octane number when compared to petrol due to which it E10T5 and E20T5 respectively and subjected to standard can operate at higher compression ratios. Researchers in performance and emissions test. The performance tests [1,3] stated that toluene is a better octane booster were conducted under a constant speed of 1500 RPM with compared to ethanol, and it provides a substantial varying loads of 10kg, 20kg and 30kg. Emission tests were improvement in brake thermal efficiency and torque. It conducted using the exhaust gas analyzer to obtain the helps reduce the brake specific fuel consumption to a lower various emissions from the exhaust gas constituents. The value than that of gasoline and ethanol. But where it lacks experimental setup consists of four cylinders, four stroke, is in the emissions since it can only decrease the NOX and Ambassador 1800 ISZ carbureted SI Engine connected to HC emissions but it increases CO2 and CO emissions but an Eddy current dynamometer arrangement. It consists of as mentioned in [1] ethanol reduces CO, CO2 emissions a panel board arrangement which displays the RPM of the and increases NOX and HC emissions. It was stated in [4] engine and a throttle valve to adjust the RPM of the engine that as the percentage of ethanol increases, the CO and a fuel input measuring arrangement which consists of emission decreases and this was due to the presence of 10 liters capacity fuel tank mounted on a stand and a extra oxygenates within the cylinder and that ethanol has burette which facilitates the measurement of the fuel less carbon compared to gasoline. Hence, reduction in CO consumption for a definite period of time. An AVL emission. It was also stated that increasing ethanol DiTEST MDS 215 exhaust gas analyzer was used to percentage in the blends would result in higher indicated measure the exhaust gas constituents from the engine using mean pressure and higher in cylinder pressure. It would a probe during the experiment. The readings were recorded also result in more fuel-air charge being formed in the on its proprietary application on a smartphone. cylinder and higher amount of density of the charge being present within the cylinder. As stated in [4,5], increase in ethanol percentage causes an increase in NOX emissions. But toluene reduces NOX emissions. NOX emissions are 4. Results and Discussion produced due to high temperatures during combustion and with enough heat nitrogen and oxygen present within the The results were obtained from the experimental setup air combine to form NOX as stated in [5]. From [6], we can which was run at 1500 RPM. All the four blends were understand that toluene, n-heptane and iso-octane have a tested and the following results were obtained. much higher performance output than ethanol since they have a higher octane rating than ethanol. Researchers from 4.1 Specific Fuel Consumption [7] compared ethanol and isobutanol in terms of emissions and had found that using an ethanol-gasoline had brought a decrease in CO, HC and NOX emissions but a slight Specific Fuel Consumption or SFC is a measure of the increase in CO2 emissions when compared to isobutanol- amount of fuel consumed in one hour to produce 1 kilowatt gasoline blend. The decrease noted in emissions was at of energy. As we can observe from figure 1, the trend least more than 8% in each case. Researchers in [8] were signifies that SFC decreases with increase in BP. We can testing on unburnt HC emissions with five different fuels notice that pure petrol (PP) has the highest SFC followed and had found that gaseous fuels such as methane and by 10% Ethanol (E10) and 10% Ethanol with 5% Toluene propane released lesser HC emissions when compared to (E10T5) and finally see that 20% Ethanol with 5% Toluene liquid fuels such as toluene, benzene and isooctane due to (E20T5) has the lowest specific fuel consumption oil layer adsorption/desorption. Researchers in [9] used compared to the rest of the blends. SFC reduces for E20 to test against performance, emissions and increase in brake power, since brake power increases more combustion of an engine in comparison to gasoline.
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